CN106369884A

CN106369884A - Evaporator, air cooler, and refrigeration or heat pump device and system

Info

Publication number: CN106369884A
Application number: CN201610824165.XA
Authority: CN
Inventors: 赵向辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-09-15
Filing date: 2016-09-15
Publication date: 2017-02-01

Abstract

The invention discloses an evaporator, an air cooler comprising the evaporator, a refrigeration or heat pump device comprising the evaporator, and a refrigeration or heat pump system comprising the evaporator, wherein the evaporator is provided with a refrigeration pipeline and a defrosting pipeline. According to the invention, the evaporator adopts the specially arranged defrosting pipeline, so that the evaporator has reasonable condensing pressure during hot air defrosting, and besides, during defrosting, the demand quantity for a refrigerant of the system is greatly decreased; and during defrosting, the refrigeration or heat pump system is reliable in operation and quick, complete and efficient in defrosting.

Description

Vaporizer, air-cooler, refrigeration or heat pump assembly and system

Technical field

The present invention relates to refrigerating field, in particular to a kind of vaporizer, the air-cooler containing this vaporizer, contain The refrigeration of this vaporizer or heat pump assembly and the refrigeration containing this vaporizer or heat pump.

Background technology

In order to ensure direct expansion air cooler normal work, when its surface frosting, it is necessary for defrosting in good time.Remove White mode mainly has water flushing, electric defrosting and hot gas defrosting.Hot gas defrosting is different according to refrigeration or heat pump Defrost mode Also divide inverse defrosting and hot gas bypass defrosting.

Hot gas defrosting application is convenient and energy-conservation, especially inverse defrosting are than hot gas bypass defrosting more energy-conservation, but, cold Hide in the middle cryogenic refrigerating unit in freezing field, particularly in larger device, inverse defrosting application is less.On the one hand, by Substantially big than condenser in the internal volume of vaporizer, during inverse defrosting, the cold-producing medium wretched insufficiency of system, on the other hand, inversely removes When white defrosting pressure too low so that defrosting time length, effect are poor, result even in heating power expansion valve and system cisco unity malfunction.

Content of the invention

It is an object of the invention to solving the above problems.

The technical scheme that the present invention provides is as follows:

A kind of vaporizer, is respectively arranged with refrigeration piping and defrosting pipeline.

Further, the internal volume of described refrigeration piping is more than the internal volume of described defrosting pipeline.

Preferential, the cross-sectional area of described refrigeration piping is more than the cross-sectional area of described defrosting pipeline.

Further, described refrigeration piping and described defrosting pipeline are pipe, and the internal diameter of described refrigeration piping is more than institute State the internal diameter of defrosting pipeline.

Preferential, the external diameter of described refrigeration piping is 15.88mm, and the external diameter of described defrosting pipeline is not more than 10mm.

Preferential, the external diameter of described refrigeration piping is 15.88mm, and the external diameter of described defrosting pipeline is 9.52mm.

Preferential, the external diameter of described refrigeration piping is 12.7mm, and the external diameter of described defrosting pipeline is not more than 9.52mm.

A kind of air-cooler, comprises the vaporizer described in any of the above-described.

A kind of refrigeration or heat pump assembly, comprise the vaporizer described in any of the above-described.

A kind of refrigeration or heat pump, comprise the vaporizer described in any of the above-described.

Based on technique scheme, the vaporizer of the present invention adopts ad hoc defrosting pipeline, thus when can make system defrosting There is rational condensing pressure, and when defrosting, the coolant demand of system is greatly decreased.The refrigeration of the present invention or heat pump, remove When white, system operation is reliable, and defrosting is quick, thoroughly, efficiently.

Brief description

Fig. 1 is the pipeline composition schematic diagram of vaporizer first embodiment of the present invention.

Fig. 2 is the pipeline connection diagram of vaporizer first embodiment of the present invention.

Fig. 3 is the theory of constitution schematic diagram of inventive refrigeration system first embodiment.

Specific embodiment

Below in conjunction with drawings and Examples, technical scheme is described in further detail.

As shown in figure 1, the pipeline composition schematic diagram for vaporizer first embodiment of the present invention.Wherein, 50 is vaporizer, steams The refrigerant passage sending out device 50 is round copper pipe, and empty circles 510 are refrigeration pipings, and solid circles 520 are defrosting pipelines.

As shown in Fig. 2 the pipeline connection diagram for vaporizer first embodiment of the present invention.

Wherein, the flow direction of low-temp low-pressure coolant when hollow arrow represents vaporizer 50 refrigeration, now coolant is along hachure Tube runs, the coolant of low-temp low-pressure is out divided into 4 tunnels through separating tube 1,2,3,4 afterwards respectively from low pressure inlet house steward 511, then Enter in the refrigeration piping 510 of vaporizer 50, the refrigeration piping 510 of vaporizer 50 is also classified into 4 tunnels, and there are 6 copper pipes on each road, cold Matchmaker, after 4 road refrigeration piping outputs, enters in suction nozzle 512 together, then flows to compressor.

The flow direction of high pressure refrigerant when filled arrows represent vaporizer 50 defrosting, now coolant is along broad-brush tube runs, High pressure refrigerant is divided into two-way after high-pressure inlet house steward 521 output, respectively enters the two-way pipeline of vaporizer 50 defrosting pipeline 520 In, also enter back into through the water accumulating disc defrosing pipe 526 of vaporizer 50 bottom setting after the two-way pipeline output of defrosting pipeline 520 In high-pressure liquid tube 522, and export from high-pressure liquid tube 522.

As shown in figure 3, the theory of constitution schematic diagram for inventive refrigeration system first embodiment.Wherein, 10 is compressor, 61 is four-way change-over valve, and 20 is condenser, and 30 is two-way reservoir, and 50 is vaporizer, and vaporizer 50 comprises refrigeration piping 510 He Defrosting pipeline 520, it is gas-liquid separator that the bottom of vaporizer 50 is additionally provided with water accumulating disc defrosing pipe 526,62, and 40 and 66 are heat Power expansion valve, 63 is break-make electromagnetic valve, and 64 and 65 are check valve, and its conducting direction is direction shown in arrow.

Four-way change-over valve 61 is an electromagnetic valve, total d mouth, e mouth, s mouth, four connectors of c mouth, and has two operations Position, during four-way change-over valve 61 power-off, its d mouth connects with c mouth and e mouth connects with s mouth, on four-way change-over valve 61 during electricity, its d mouth Connect with e mouth and c mouth connects with s mouth.

The d mouth of four-way change-over valve 61 is connected with the air vent of described compressor 11, and the s mouth of four-way change-over valve 61 is through gas-liquid Separator 62 is connected with the air entry of compressor 11, and the c mouth of four-way change-over valve 61 is sequentially connected in series connection condenser to e mouth 20th, the defrosting pipeline 520 of check valve 65, reservoir 30, check valve 64, water accumulating disc defrosing pipe 526, vaporizer 50, check valve 65 Two ends be also arranged in parallel heating power expansion valve 66, on the connecting pipe between reservoir 30 and check valve 64 also bypass have one Pipeline, this pipeline connects gas-liquid separation after sequentially passing through the refrigeration piping 510 of electromagnetic valve 63, heating power expansion valve 40, vaporizer 50 The entrance of device 62.In the refrigeration system application of the present embodiment and low temperature miniature cold storage, condenser 20 and vaporizer 50 are all using wind Cold.

During cooling system, four-way change-over valve 61 power-off, electromagnetic valve 63 is opened, and the cold-producing medium of High Temperature High Pressure is defeated from compressor 10 After going out, sequentially pass through the d mouth of four-way change-over valve 61 and c mouth enters condenser 20, after radiating condensation in condenser 20, become high Press liquid, be then passed through check valve 65 enter reservoir 30, from reservoir 30 output high-pressure liquid coolant through electromagnetic valve 63 Enter heating power expansion valve 40 afterwards to throttle, be changed into the biphase coolant of low-temp low-pressure, subsequently in the refrigeration piping 510 of vaporizer 50 Heat absorption is changed into low-pressure gas, is then passed through the air entry that gas-liquid separator 62 returns to compressor 11, forms a complete refrigeration Circulation.

With the increase of cooling system time, the frost layer of vaporizer 50 fin surface increasingly thicker therefore, it is desirable to evaporation Device 50 defrosts.

During system defrosting, electricity on four-way change-over valve 61, electromagnetic valve 63 cuts out, and the cold-producing medium of High Temperature High Pressure is defeated from compressor 10 After going out, sequentially pass through the d mouth of four-way change-over valve 61 and e mouth enter the defrosting pipeline 520 of vaporizer 50, radiating condensation wherein, The water accumulating disc defrosting pipe 526 entering back into vaporizer 50 bottom radiates further and is changed into highly pressurised liquid, is then passed through check valve 64 and enters Enter in reservoir 30, be changed into the two of low-temp low-pressure from the high-pressure liquid coolant of reservoir 30 output after heating power expansion valve 66 throttling Phase coolant, entering back into the heat of vaporization absorbing in surrounding air in condenser 20 becomes low-pressure gaseous coolant, then in turn through The c mouth of four-way change-over valve 61, s mouth and gas-liquid separator 62, eventually pass back to the air entry of compressor 11, complete complete removing Frost circulation.

In defrosting circulation, the coolant in vaporizer 50 refrigeration piping 510 is heated and is inhaled into through gas-liquid separator 62 The air entry of compressor 10, in the system hence into defrosting circulation.After the completion of defrosting circulation, when just starting kind of refrigeration cycle, steam Send out the device 50 slightly higher coolant of pressure in pipeline 520 that defrosts and sequentially pass through the e mouth of four-way change-over valve 61, s mouth, gas-liquid separator 62, It is inhaled into the air entry of compressor 10, hence in the system of kind of refrigeration cycle.

Because the ad hoc defrosting pipeline 520 of vaporizer 50 and its internal volume and heat exchange area are relatively small, to vaporizer 50 During defrosting, the coolant of needs less and also defrost pressure will not too low so that impact system or compressor normally run, during defrosting, Due to being provided with reservoir 30, the coolant of water accumulating disc defrosting pipe 526 output from vaporizer 50 bottom does not almost have degree of supercooling, steams Send out in the defrosting pipeline 520 and water accumulating disc defrosting pipeline 526 of device 50, remove the sub-fraction that discharge superheat coolant takies pipeline, It is condensation temperature, during defrosting, system operation is reliable, and defrost uniformly, quickly, thoroughly, efficiently.

Finally it should be noted that: the foregoing is only the preferred embodiments of the present invention, be not limited to this Bright, for a person skilled in the art, the present invention can have various modifications and variations.So, all spirit in the present invention With any modification made within principle, equivalence replacement, improvement etc., should be included within the protection domain of present invention request.

Claims

1. a kind of vaporizer (50) it is characterised in that:

It is respectively arranged with refrigeration piping (510) and defrosting pipeline (520).

2. vaporizer according to claim 1 it is characterised in that:

The internal volume of described refrigeration piping (510) is more than the internal volume of described defrosting pipeline (520).

3. vaporizer according to claim 2 it is characterised in that:

The cross-sectional area of described refrigeration piping (510) is more than the cross-sectional area of described defrosting pipeline (520).

4. vaporizer according to claim 3 it is characterised in that:

Described refrigeration piping (510) and described defrosting pipeline (520) are pipe, and the internal diameter of described refrigeration piping (510) is more than The internal diameter of described defrosting pipeline (520).

5. vaporizer according to claim 4 it is characterised in that:

The external diameter of described refrigeration piping (510) is 15.88mm, and the external diameter of described defrosting pipeline (520) is not more than 10mm.

6. vaporizer according to claim 5 it is characterised in that:

The external diameter of described refrigeration piping (510) is 15.88mm, and the external diameter of described defrosting pipeline (520) is 9.52mm.

7. vaporizer according to claim 4 it is characterised in that:

The external diameter of described refrigeration piping (510) is 12.7mm, and the external diameter of described defrosting pipeline (520) is not more than 9.52mm.

8. a kind of air-cooler it is characterised in that:

Comprise the vaporizer described in any one of the claims 1 to 7.

9. a kind of refrigeration or heat pump assembly it is characterised in that:

Comprise the vaporizer described in any one of the claims 1 to 7.

10. a kind of refrigeration or heat pump it is characterised in that:

Comprise the vaporizer described in any one of the claims 1 to 7.